A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing
The 3D Display Augmentation to the Implementation of the Finite-Difference Time Domain Method in Volunteer computing. It provides a basic framework for implementing the simulation of electromagnetic waves through the use of the Finite-Difference Time Domain method developed by Kane Yee. The system e...
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oai:animorepository.dlsu.edu.ph:faculty_research-74332022-09-07T03:18:47Z A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing Garcia, Victor Josef M. The 3D Display Augmentation to the Implementation of the Finite-Difference Time Domain Method in Volunteer computing. It provides a basic framework for implementing the simulation of electromagnetic waves through the use of the Finite-Difference Time Domain method developed by Kane Yee. The system expands upon it further by providing a working networking structure for parallel computing using the volunteer computing paradigm and displaying inputs and results in 3 dimensions. The system was developed using Java and Java3D and was tested under the Microsoft Windows XP operating system. 2008-01-01T08:00:00Z text https://animorepository.dlsu.edu.ph/faculty_research/6727 Faculty Research Work Animo Repository Three-dimensional imaging Finite differences Java (Computer program language) Computer Sciences |
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Three-dimensional imaging Finite differences Java (Computer program language) Computer Sciences |
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Three-dimensional imaging Finite differences Java (Computer program language) Computer Sciences Garcia, Victor Josef M. A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
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The 3D Display Augmentation to the Implementation of the Finite-Difference Time Domain Method in Volunteer computing. It provides a basic framework for implementing the simulation of electromagnetic waves through the use of the Finite-Difference Time Domain method developed by Kane Yee. The system expands upon it further by providing a working networking structure for parallel computing using the volunteer computing paradigm and displaying inputs and results in 3 dimensions. The system was developed using Java and Java3D and was tested under the Microsoft Windows XP operating system. |
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text |
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Garcia, Victor Josef M. |
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Garcia, Victor Josef M. |
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Garcia, Victor Josef M. |
title |
A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
title_short |
A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
title_full |
A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
title_fullStr |
A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
title_full_unstemmed |
A 3D display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
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3d display augmentation to the implementation of the finite-difference time domain method in volunteer computing |
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Animo Repository |
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2008 |
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https://animorepository.dlsu.edu.ph/faculty_research/6727 |
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